Latest Articles for Optics

Researchers demonstrate a new method for observing DCE using slower mechanical oscillators.

An overview of second harmonic generation and its relevance in physics and materials science.

WINO offers faster and more efficient predictions for electric fields across varied wavelengths.

Researchers create Rydberg exciton arrays in cuprous oxide, promising advances in quantum devices.

Researchers create efficient microwave-optics entanglement for improved quantum networks.

Scientists develop devices to generate single photons and squeezed light for quantum applications.

Exploring the unique behavior of plasmonic random lasers and their potential applications.

Investigating how light behaves unusually in the quantum realm.

Researchers explore issues in studying nearby exoplanets using star light.

Exploring necklace beams and how AI enhances their study.

This article explores molecular polaritons and their potential applications in science and technology.

Research reveals new material behaviors through light interactions in cavities.

New fiber collimators improve light measurement in sensitive environments.

Learn how laser light influences electrical behavior in graphene materials.

ESCAPE method improves adaptive optics calibration during real-time astronomical observations.

Exploring improvements in InGaAs/InP single-photon detectors and their applications.

Researchers enhance light control using innovative topological waveguides for various technologies.

New photonic integrated circuits improve ground-based astronomy image quality.

A new method improves the calibration of spatial light modulators for better light control.

This paper discusses how electrons emit light and change momentum in electromagnetic fields.

Discover how photonic crystals manipulate light through atomic doping.

New techniques reduce noise in multi-soliton states for optical technologies.

New algorithms enhance understanding of surface states in photonic and acoustic systems.

A look at the Gardner equation's role in wave phenomena across various fields.

Scientists reveal how light induces fast state changes in materials.

Researchers integrate quantum dots into topological structures for improved light paths.

Researchers connect semiconductor lasers to create unique light patterns.

Research reveals how design impacts light movement in valley photonic crystals.

An overview of current-induced circular dichroism and its implications in materials science.

Research reveals innovative control of light using electric fields in CrGeTe.

This study explores the use of magnetic forces for trapping nanoparticles using light.

Exploring chaotic behavior in the Ikeda map through dynamical systems.

Researchers enhance the optical Kerr effect using guided-mode resonance gratings for advanced photonic systems.

Researchers create efficient vortex beams using new materials.

This article examines how asymmetric beams affect light movement and practical applications.

Researchers develop slow light technology to improve laser frequency stability.

New imaging techniques enhance clarity of biological samples at small scales.

New devices aim to enhance starlight collection in ground-based telescopes.

This method uses light particles for highly accurate movement detection.

A novel approach to measure weak light states improves technology applications.